Compressor and moving scroll thereof

The invention claimed is: 1. A moving scroll comprising: a moving base plate ( 50 ), provided with a shaft seat ( 52 ) with an axis as its shaft center, the moving base plate ( 50 ) comprising a first side ( 501 ) and a second side ( 502 ) which are opposite each other in a direction of the axis, the shaft seat ( 52 ) being disposed at the second side ( 502 ); a moving scroll wall ( 54 ), integrally formed at the first side ( 501 ) of the moving base plate ( 50 ), the moving scroll wall ( 54 ) extending around the axis from a position near the axis in a direction away from the axis, the moving scroll wall ( 54 ) having an end face ( 540 ), the end face ( 540 ) being located at the end of the moving scroll wall ( 54 ) that is opposite the moving base plate ( 50 ) in the direction of the axis, and a collection groove ( 542 ) being disposed on the end face ( 540 ); a channel ( 56 ) running in the direction of the axis is disposed between the collection groove ( 542 ) and the second side ( 502 ), the channel ( 56 ) and the collection groove ( 542 ) being connected at a first port ( 561 ), the channel ( 56 ) running through the second side ( 502 ) at a second port ( 562 ), the collection groove ( 542 ) extending from the first port ( 561 ) to a collection end ( 544 ) in a direction towards the center of the moving scroll, and the collection groove ( 542 ) extending not less than 60 degrees and not more than 400 degrees around the axis from the first port ( 561 ) to the collection end ( 544 ); wherein the collection groove ( 542 ) terminates at the first port ( 561 ). 2. The moving scroll according to claim 1 , wherein a diameter of the channel ( 56 ) is not less than 0.2 times a thickness of the moving scroll wall ( 54 ) and not more than 0.9 times the thickness of the moving scroll wall ( 54 ), a width of the collection groove ( 542 ) is not more than 0.9 times the thickness of the moving scroll wall ( 54 ), and the collection groove ( 542 ) extends not less than 90 degrees and not more than 365 degrees around the axis from the first port ( 561 ) to the collection end ( 544 ). 3. The moving scroll according to claim 1 , wherein a diameter of the channel ( 56 ) is not less than 0.3 times a thickness of the moving scroll wall ( 54 ) and not more than 0.7 times the thickness of the moving scroll wall ( 54 ), the collection groove ( 542 ) comprises a bottom groove ( 546 ) and a sealing part ( 548 ), the bottom groove ( 546 ) being closer to the moving base plate ( 50 ) than the sealing part ( 548 ), a width of the bottom groove ( 546 ) being not more than 0.3 times the thickness of the moving scroll wall ( 54 ), a width of the sealing part ( 548 ) being greater than the width of the bottom groove ( 546 ), and a sealing member ( 58 ) is installed in the sealing part ( 548 ), the sealing member ( 58 ) extending towards the collection end ( 544 ) from above the first port ( 561 ) but not sealing the collection end ( 544 ), the sealing member ( 58 ) preventing fluid from entering the bottom groove ( 546 ) and the channel ( 56 ) in the direction of the axis, and a length of the sealing member ( 58 ) in a circumferential direction of the moving scroll ( 5 ) being not less than 0.3 times a total length of the collection groove ( 542 ). 4. The moving scroll according to claim 3 , wherein the width of the sealing part ( 548 ) is greater than the width of the bottom groove ( 546 ) such that a step is formed between the sealing part ( 548 ) and the bottom groove ( 546 ), the sealing member ( 58 ) is supported on the step, the collection groove ( 542 ) extends not less than 110 degrees and not more than 300 degrees around the axis from the first port ( 561 ) to the collection end ( 544 ), and the length of the sealing member ( 58 ) in the circumferential direction of the moving scroll ( 5 ) is not less than 0.6 times the total length of the collection groove ( 542 ). 5. The moving scroll according to claim 1 , wherein a length of extension of the collection groove ( 542 ) around the axis from the first port ( 561 ) to the collection end ( 544 ) is not less than 15 mm, and an outer diameter of the moving scroll ( 5 ) is not greater than 120 mm. 6. The moving scroll according to claim 1 , wherein the second port ( 562 ) is located at a surface at one end, in the direction of the axis, of a peripheral wall ( 520 ) of the shaft seat ( 52 ), or located at a relatively protruding region at an outer side of the peripheral wall ( 520 ) of the shaft seat ( 52 ), a throttle hole ( 57 ) running in the direction of the axis is disposed between the first side ( 501 ) and the second side ( 502 ), a radial distance from the throttle hole ( 57 ) to the axis being not less than 0.3 times a radius of the moving scroll ( 5 ), and a diameter of the throttle hole ( 57 ) being less than 0.3 times a diameter of the channel ( 56 ). 7. The moving scroll according to claim 1 , wherein the collection end ( 544 ) is configured in a circular shape, a diameter of the collection end ( 544 ) is greater than a width of the collection groove ( 542 ), the width of the collection groove ( 542 ) is not greater than 3 mm, and a depth of the collection groove ( 542 ) is greater than 0.2 mm and less than 3 mm. 8. A compressor comprising: a housing ( 1 ), defining an accommodating cavity ( 10 ); a static scroll ( 2 ) fixed in the accommodating cavity ( 10 ), the static scroll ( 2 ) comprising a static base plate and a static scroll wall, the static base plate and the static scroll wall being integrally formed; a middle plate ( 3 ), the middle plate ( 3 ) being fixed in the accommodating cavity ( 10 ); a main shaft ( 40 ), rotatable relative to the housing ( 1 ) around a main axis, the main shaft ( 40 ) being provided with an eccentric shaft ( 42 ); a moving scroll comprising a moving base plate ( 50 ), provided with a shaft seat ( 52 ) with an axis as its shaft center, the moving base plate ( 50 ) comprising a first side ( 501 ) and a second side ( 502 ) which are opposite each other in a direction of the axis, the shaft seat ( 52 ) being disposed at the second side ( 502 ); a moving scroll wall ( 54 ), integrally formed at the first side ( 501 ) of the moving base plate ( 50 ), the moving scroll wall ( 54 ) extending around the axis from a position near the axis in a direction away from the axis, the moving scroll wall ( 54 ) having an end face ( 540 ), the end face ( 540 ) being located at an end of the moving scroll wall ( 54 ) that is opposite the moving base plate ( 50 ) in the direction of the axis, and a collection groove ( 542 ) being disposed on the end face ( 540 ); a channel ( 56 ) running in the direction of the axis is disposed between the collection groove ( 542 ) and the second side ( 502 ), the channel ( 56 ) and the collection groove ( 542 ) being connected at a first port ( 561 ), the channel ( 56 ) running through the second side ( 502 ) at a second port ( 562 ), the collection groove ( 542 ) extending from the first port ( 561 ) to a collection end ( 544 ) in a direction towards the center of the moving scroll, and the collection groove ( 542 ) extending not less than 60 degrees and not more than 400 degrees around the axis from the first port ( 561 ) to the collection end ( 544 ); the moving scroll ( 5 ) being mounted between the static scroll ( 2 ) and the middle plate ( 3 ), the eccentric shaft ( 42 ) being mounted in the shaft seat ( 52 ), a shaft center of the eccentric shaft ( 42 ) coinciding with the axis, the axis being located on a parallel line offset from the main axis, a side face of the moving scroll wall ( 54 ) meshing with a side face of the static scroll wall, the end face ( 540 ) of the moving scroll wall ( 54 ) being in sliding contact with the static base plate, a compression chamber (